Apoptosis is induced by choline deficiency in fetal brain and in PC12 cells.

Treatment of rats with choline during critical periods in brain development results in long-lasting enhancement of spatial memory in their offspring. Apoptosis is a normal process during brain development, and, in some tissues, is modulated by the availability of the nutrient choline. In these studies, we examined whether availability of choline influences apoptosis in fetal brain and in the PC12 cell line derived from a rat pheochromocytoma. Timed-bred Sprague Dawley rats were fed a choline-deficient (CD), choline-control, or choline-supplemented (CS) diet for 6 days and, on embryonic day 18, fetal brain slices were prepared and apoptosis was assessed using terminal dUTP nucleotide end labeling (TUNEL) to detect DNA strand breaks and by counting of apoptotic bodies. TUNEL-positive cells were detected in 15.9% (P < 0.01), 8.7% and 7.2% of hippocampal cells from fetuses of dams fed the CD, control or CS diets, respectively. A similar inverse relationship between dietary intake of choline and TUNEL positive cells was detected in an area of cerebral cortex from these fetal brain slices. Counts of apoptotic bodies in fetal brain slices correlated inversely with choline intake of the mothers (6.2% (P < 0.01), 2.5% and 1.9% of hippocampal cells had apoptotic bodies in fetuses of dams fed the CD, control and CS diets, respectively). PC12 cells were grown in DMEM/F12 media supplemented with 70 microM choline or with 0 microM choline. The number of apoptotic bodies in PC12 cells increased when cells were grown in 0 microM choline medium (1.5%; P < 0.05) compared to 70 microM choline medium (0.55%). In PC12 cells, TUNEL labeling (DNA strand breaks) increased in choline deficient (13.5%, P < 0.05) compared to sufficient medium (5.0%). In addition, cleavage of genomic DNA-into 200 bp internucleosomal fragments was detected in choline-deficient cells. These results show that choline deficiency induces-apoptotic cell death in neuronal-type cells and in whole brain. We suggest that variations in choline availability to brain modulate apoptosis rates during development.